CASE STUDY

Raglan Mine: Nickel Recovery from Mine Water

OBJECTIVE

Environmental compliance and Ni recovery from mine drainage

TECHNOLOGIES

ChemSulphide® & Met-IX™
®

PLANT CAPACITY

6,500 m³/day ChemSulphide®
4,000 m³/day Met-IX™

LOCATION

Québec, Canada

BQE WATER SCOPE

Process design, plant supply and construction, commissioning and training, and ongoing operating services

PROJECT HIGHLIGHTS

15 years of seasonal operational services under long-term contract
Cut cost per m³ of water treated by 10% over 15 years
Safe, consistent and reliable service at remote site

Project Overview

ChemSulphide® technology was selected to treat mine drainage at Raglan Mine, an active nickel mine in the Canadian sub-Arctic. Built in 2003, the ChemSulphide® plant replaced a low-density sludge lime plant and treats on average, over one million m³ of mine water within a 120 day period between the spring snow melt and fall freeze.

The plant produces effluent with nickel levels < 0.25 mg/L for discharge and provides concurrent recovery of a high-grade nickel concentrate. The treated effluent also consistently passes toxicity bioassay testing on trout and daphnia. Most importantly, the plant does not produce any metal-laden sludge requiring disposal.

In response to regulatory requirements to expand site water treatment to cope with an 1 in 100 year storm event without the need to build a second plant, a modular and compact mobile Met-IX™ unit was constructed as an add-on to the ChemSulphide® plant. The plant, housed in a 53 ft trailer, treats mine water to produce effluent for discharge and a nickel containing regenerant stream that is treated in the ChemSulphide® plant.